Self-Tapping Brackets

ABSTRACT

There is a self-tapping curtain rod bracket with spaced prongs terminating with tips. The tips and prongs are used to penetrate and create holes in a wall. They extend through the holes and engage the backside of the wall. A wall support extends from the spaced prongs along the frontside of the wall to provide support. An arm extends away from the wall and has a cradle to support a curtain rod. The wall support also has an arm support, and the spaced prongs also includes a mount support. The mount support being located between the arm support and the arm.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of prior application Ser. No.16/871,859, filed May 11, 2020, which is hereby incorporated herein byreference in its entirety.

FIELD

The subject matter relates to brackets and, more particularly, tocurtain rod brackets that can be mounted without the use of tools.

BACKGROUND

Curtain rod brackets can be difficult to install, often requiring theassistance of professional installers. Most curtain rod brackets areinstalled with screws and in some cases nails and, therefore,installation requires the use of tools. There is a desire to makeinstallation of curtain rod brackets easier so that a do-it-yourselfercan perform the installation without the need for tools.

Others have developed curtain rods that are installed without hardware,but these have much more limited use. For example, tension rods do notrequire tools for installation, but their use is limited to situationswhere there are opposing surfaces or walls, such as window frames,closets or bathroom tub and shower enclosures. Magnetic systems do notrequire tools for installation, but their use is limited to situationswhere there is a metal surface, such as a steel frame, and are furtherlimited by the amount of weight that can be supported. Suction cupsystems do not require tools for installation, but suction cups arelimited by the amount of weight they can support.

Thus, there is a need for curtain rod systems that do not require toolsand that are not limited by the weight that they can support so thatheavy drapery material can be used in the interior design.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A is a left side elevation view of a single piece rod bracket;

FIG. 1B is a front elevation view of the single piece rod bracket ofFIG. 1A;

FIG. 1C is a top plan view of the single piece rod bracket of FIG. 1A;

FIG. 2A is a left side elevation view of a two-piece rod bracket;

FIG. 2B is a top plan view of the two-piece rod bracket of FIG. 2A;

FIG. 2C is an exploded view of the two-piece rod bracket of FIG. 2A;

FIG. 2D is a front cross-section view of the two-piece rod bracket ofFIG. 2A taken along line 2D-2D of FIG. 2A;

FIG. 3A is a side elevation view of a three-piece rod bracket;

FIG. 3B is an exploded view of the three-piece rod bracket of FIG. 3A;

FIG. 3C is a top plan view of a prong mount of the three-piece rodbracket of FIG. 3A;

FIG. 3D is a top plan view of the three-piece rod bracket of FIG. 3A;

FIG. 4A is a side elevation view of another two-piece rod bracket;

FIG. 4B is a top plan view of a prong mount of the two-piece rod bracketof FIG. 4A;

FIG. 4C is a cross-section view of the two-piece rod bracket of FIG. 4Ataken along line 4A-4A of FIG. 4A;

FIG. 5A is a side elevation view of another two-piece rod bracket;

FIG. 5B is a top plan view of the two-piece rod bracket of FIG. 5A;

FIG. 5C is a cross-section view of the two-piece rod bracket of FIG. 5Ataken along line 5A-5A of FIG. 5A;

FIG. 6A is a side elevation view of another two-piece rod bracket;

FIG. 6B is a top plan view of the two-piece rod bracket of FIG. 6A;

FIG. 6C is a cross-section view of the two-piece rod bracket of FIG. 6Atake along linen 6A-6A of FIG. 6A;

FIG. 7A is a side elevation view of another two-piece rod bracket;

FIG. 7B is a side elevation view of a prong mount of the two-piece rodbracket of FIG. 7A;

FIG. 7C is a top plain view of the prong mount of the two-piece rodbracket of FIG. 7A;

FIG. 7D is a front cross-section view of the prong mount of thetwo-piece rod bracket of FIG. 7A taken along line 7D-7D of FIG. 7C;

FIG. 7E is a top plan view of a rod support arm of the two-piece rodbracket of FIG. 7A;

FIG. 7F is a cross-section view of the rod support arm of the two-piecerod bracket of FIG. 7A taken along line 7F-7F of FIG. 7E;

FIG. 8A is an illustration of the single piece rod bracket of FIG. 1being inserted into a wall;

FIG. 8B is another illustration of the single piece rod bracket of FIG.1 being inserted into the wall;

FIG. 8C is another illustration of the single piece rod bracket of FIG.1 being inserted into the wall;

FIG. 9A is a top plan view of a single prong mount portion;

FIB. 9B is an end elevation view of the single prong mount portion ofFIG. 9A;

FIG. 9C is a side elevation view of the single prong mount portion ofFIG. 9A;

FIG. 10A is a top plan view of an alternative prong mount;

FIG. 10B is a side elevation view of the prong mount of FIG. 10A; and

FIG. 10C is a front elevation view of the prong mount of FIG. 10A.

DETAILED DESCRIPTION

Referring to FIGS. 1A-1C, there is a single piece curtain rod bracket100 that is installed on to a wall 102, such as drywall covered wall,without the use of any tools. The bracket 100 includes a prong portion104 that is used to form a hole 106 through the wall 102, and then, thebracket 100 is inserted part way through the hole 106 to engage abackside 108 of the wall 102, while a leg portion 110 of the bracket 100engages a frontside 112 of the wall 102.

The prong portion 104 includes a straight portion 114 and a curvedportion 116. The curved portion 116 connects to a short straight portion118. A first elbow portion 120 connects the straight portion 118 to theleg portion 110, and a second elbow 122 connects the leg portion 110 toa support arm portion 124. The support arm portion 124 may be curvedsuch that it curves upward when the bracket 100 is installed on the wall102. A third elbow portion 126 connects the arm portion 124 to a cradle128. The cradle 128 can be any shape that holds the curtain rod. Forexample, it may be a closed loop or an open loop structure. One exampleis the open loop structure having a generally U-shaped cross-sectionthat opens upward when the bracket 100 is installed on the wall 102. Thecross-section may have other configurations other than the U-shapedcross-section. The cradle 128 includes a threaded screw 130 mounted in acomplementary threaded hole 132 to secure a curtain rod in the cradle128 from unintentional removal of the curtain rod from the cradle 128and/or unintentional lateral movement in the cradle 128. The screw 130engages a curtain rod and pins it against the front of the cradle 128.

The prong portion 104 is generally U-shaped with two prongs 134. Eachprong 134 includes a pointed tip 136. Each pointed tip 136 includes anapex 138 and two lateral edges 140 on opposite sides of the apex 138that angle downwardly from the apex 138. Each pointed tip 136 alsoincludes a backside 142 that angles downwardly from the apex 138. Thepointed tips 136 of the prongs 134 are used to puncture the wall 102 toform the hole 106. When the bracket 100 is installed, the pointed tips136 may contact the backside 108 of the wall 102 and limit the bracket100 from pivoting in the hole 106. The width of the prong portion 104may also be greater than the height of the hole 106, which also limitsthe bracket 100 from pivoting in the hole 106.

By way of example only, the length of the prong portion 104 may be 0.70inches, and the width of the prong portion 104 (as well as the entirebracket 100) may be 0.75 inches. Each prong 134 may have a width of 0.12inches and a length of 0.11 inches. The radius of curvature of thecurved portion 116 of the prong portion 104 may be 0.400 inches and thelength of the straight portion 114 of the prong portion 104 may be 0.16inches. The first and third elbow portions 120, 126 may be bent at about90 degrees. The radius of curvature of the second elbow portion 122 maybe 0.060 inches. The radius of curvature of the support arm portion 124may be 1.769 inches. The radius of curvature of the cradle 128 may be0.323 inches. The cradle 128 may angle backward toward the wall 102 at20 degrees. The horizontal height of the center of the cradle 128relative to the second elbow 122 portion may be 1.10 inches, and thehorizontal height of a terminal edge 144 of the cradle 128 relative tothe second elbow portion 122 may be 1.45 inches. The terminal edge 144of the cradle 128 may be arcuate and may have a radius of curvature of0.409 inches. The bracket 100 may be made from 0.08 inch thick steel.

When the bracket 100 installed on the wall 102, the straight portion 114and the curved portion 116 of the prong portion 104 extend through thehole 106. The short straight portion 118 and the first elbow 120 mayrest on the bottom of the hole 106 near and/or at the frontside 112 ofthe wall 102. The first elbow 120 may provide a pivot for the leg 110 toengage the frontside 112 of the wall 102 to provide support balancedagainst the prong section 104 engaging the backside 108 of the wall 102.The curved portion 116 of the prong portion 104 may engage the top ofthe hole 106 near/or at the backside 108 of the wall 102. The pointedtips 136 of the prongs 134 are able to scratch and/or slightly penetratethe backside 108 of the wall 102 and, along with the width of thebracket 100 relative to the size of the hole 106, limit the bracket 100from swinging as a pendulum.

With reference to FIGS. 2A-2D, there is illustrated a two-piece curtainrod bracket 200 that is installed onto a wall 202, such as drywallcovered wall, without the use of any tools. The bracket 200 includes aprong mount 204 that is used to form a hole 206 through the wall 202,and then, the prong mount 204 is inserted part way through the hole 206to engage a backside 208 of the wall 202, while a rod support 210engages a frontside 212 of the wall 202.

The prong mount 204 has a generally U-shaped portion with two prongs214. Each prong 214 includes a pointed tip 216. Each pointed tip 216includes an apex 218 and two lateral edges 220 on opposite sides of theapex 218 that angle downwardly from the apex 218. Each pointed tip 216also includes a backside 222 that angles downwardly from the apex 218.The pointed tips 216 of the prongs 214 are used to puncture the wall 202to form the hole 206. When the bracket 200 is installed, the pointedtips 216 may contact the backside 208 of the wall 202 and limit thebracket 200 from pivoting in the hole 206. The width of the prong mount204 may also be greater than the height of the hole 206, which alsolimits the bracket 200 from pivoting in the hole 206. The prongs 214 maybe used to penetrate the wall 202 to form the hole 206 without the useof tools.

Each prong 214 includes a straight section 224 and a curved section 226.The straight section 224 engages the backside 208 of the wall 202 whenthe bracket 200 is installed on the wall 202. The curved section 226 mayengage the top of the hole 206 near/at the backside of 208 of the wall202. The curved section 226 extends from a base plate 228. The baseplate 228 includes two legs 229 that define an elongated slot 230 usedto connect the prong mount 204 with the rod support 210.

The rod support 210 includes a wall leg 232 and a support leg 234 thatmay be perpendicular to one another. The legs 232, 234 are straight. Thewall leg 232 includes a smooth surface 236 for engaging the frontside212 of the wall 202. The support leg 234 includes a rail 238 on atopside 240 that engages the elongated slot 230 for mounting the prongmount 204. More specifically, the rail 238 includes a first elongatedwall 242 projecting from the topside 240 and a second elongated wall 244extending across the first elongated wall 242 to from a T-shapecross-section for the rail 238. The walls 242, 244 form a channel 246 oneach side of the rail 238 with the topside 240 of the support leg 234.The channels 246 receive an inner portion of the legs 229 of the baseplate 228 with the first elongated wall 242 in the elongated slot 230.The engagement between the base plate 228 and the rail 238 can be afriction fit. For example, the width of the elongated slot 230 may onlybe slightly larger than that thickness of the first elongated wall 242,and the height of the channels 246 may only be slightly greater than thethickness of the base plate 228.

A cam lock 248 projects from the topside 240 of the support leg 234. Thecam lock 248 includes a ramp surface 250 and a lock surface 252extending perpendicular to the topside 240 of the support leg 234. Whenattaching the prong mount 204 to the rod support 210, the base plate 228slides over the ramp surface 250 while the elongated slot 230 is beingslid along the rail 238. When the elongated slot 230 is fully insertedon to the rail 238, the lock surface 252 of the cam lock 248 engages abottom edge 254 of the prong mount 204 between the prongs 214.

A web 256 extends between the wall leg 232 and the support let 234 toprovide support to increase the support load of the bracket 200. The web256 may define a window 258 and include an arcuate edge 260.

The wall leg 232 of the rod support 210 may include laterally spacedtabs 268 which each define a hole 270. The holes 268 can be used withthe prong mount 204 or without the prong mount 204 as an alternativemounting method for the rod support 210. The holes 270 can receivefasteners, such as screws or nails, to mount the rod support 210 to awall.

A cradle 262 is at the end of the support leg 234. The cradle 262 opensupward but could also be angled backward or forward. The cradle 262defines a threaded hole 264 for a screw to be threaded through to engagea rod in the cradle 262 to secure the rod from unintentional removalfrom the cradle 262.

By way of example only, the prong mount 204 could have a length of 1.766inches and a width of 0.652 inches. The elongated slot 230 could have awidth of 0.140 inches. The legs 229 defining the elongated slot 230could have rounded corners 266 to help mounting of the prong mount 204on the rail 238. The rounded corners 266 may have a radius of curvatureof inches. The legs 229 could have a length of 0.803 inches, and thedistance from the bottom edge 254 to the end of the legs 229 could be1.043 inches. The width of the prongs 214 could be inches, the internalspacing between the prongs 214 may be 0.412 inches, and the length ofthe pointed tips 216 could be 0.063 inches. The radius of curvature ofthe curved section 226 could be 0.400 inches. The height of the prongmount 204 could be 0.700 inches measured from the base plate 228 to animaginary line parallel to the base plate 228 and intersecting a pointedtip 216. The prong mount 204 may be made of steel having a thickness of0.063 inches. The rod support 210 may be made from acrylonitrilebutadiene styrene.

Regarding FIGS. 3A-3D, there is illustrated a three-piece curtain rodbracket 300 that is installed on to a wall 302, such as drywall coveredwall, without the use of any tools. The bracket 300 includes a prongmount 304 that is used to form a hole 306 through the wall 302, andthen, the prong mount 304 is inserted part way through the hole 306 toengage a backside 308 of the wall 302. The bracket 300 includes an anglebracket 310 and a rod support arm 312. The prong mount 304 attaches tothe angle bracket 310 and the support arm 312. The angle bracket 310engages a frontside 344 of the wall 302 and a bottom side 314 of theprong mount 304 to support the support arm 312. The support arm 312includes a cradle 316 to hold a curtain rod.

The prong mount 304 has a generally U-shaped portion with two prongs318. Each prong 318 includes a pointed tip 320. Each pointed tip 320includes an apex 322 and two lateral edges 324 on opposite sides of theapex 322 that angle downwardly from the apex 322. Each pointed tip 320also includes a backside 326 that angles downwardly from the apex 322.The pointed tips 320 of the prongs 318 are used to puncture the wall 302to form the hole 306. When the bracket 300 is installed, the pointedtips 320 may contact the backside 308 of the wall 302 and limit thebracket 300 from pivoting in the hole 306. The width of the prong mount304 may also be greater than the height of the hole 306, which alsolimits the bracket 300 from pivoting in the hole 306. The prongs 318 maybe used to penetrate the wall 302 to form the hole 306 without the useof tools.

Each prong 318 includes a straight section 328 and a curved section 330.The straight section 328 engages the backside 308 of the wall 302 whenthe bracket 300 is installed on the wall 302. The curved section 330 mayengage the top of the hole 306 near/at the backside 308 of the wall 302.The curved section 330 extends from a base plate 332. The base plate 332defines a hole 334 used to connect the prong mount 304 to the anglebracket 310 and the rod support arm 312.

The angle bracket 310 includes a first leg 336 and a second leg 338. Thelegs 336, 338 meet at elbow 340 at about a 90 degree angle. The firstleg 336 includes a back surface 342 that engages a frontside 344 of thewall 302 to support the bracket 300 from pivoting in the hole 306 anddamaging the wall 302 at the hole 306. The elbow 340 and the prong mount304 meet at a front, bottom portion 346 of the hole 306. The second leg338 extends under the rod support arm 312 and the base plate 332 of theprong mount 304 to support the rod support arm 312. The base plate 332of the prong mount 304 is sandwiched between the rod support arm 312 andthe second leg 338. The second leg 338 includes a threaded hole 348 thataligns with hole 334 in the base plate 332 and a hole or slot 350 in therod support arm 312. A screw 352 extends through the holes 334, 348, 350to secure the prong mount 304, the angle bracket 310 and the rod supportarm 312 together. The slot 350 allows the rod support arm 312 to beadjusted relative to the angle bracket 310.

The rod support arm 312 includes a top plate 354 and side plates 356depending downwardly from the top plate 354 on each side of the topplate 354. The side plates 356 enhance the strength of the rod supportarm 312 so that it resists downward bending under increased loads heldby the cradle 316. A portion of the base plate 332 fits into a channel358 formed between the top plate 354 and the side plates 356. The sideplates 356 prevent lateral movement of the base plate 332 of the prongmount 304. The side plates 356 include arcuate rearward edges 360.

The rod support arm 312 also may include holes 362 along a back edge 364so that the rod support arm 312 can be mounted without the prong mount304 and the angle bracket 310. The holes 362 may be used with fasteners,such as screws and/or nails, to attach the rod support arm 312 directlyto trim of a window frame.

The cradle 316 includes a U-shaped configuration. A back segment 366includes a threaded hole 368 that cooperates with a screw 370 thatengages a curtain rod to hold the curtain rod in the cradle 316. TheU-shaped configuration may be angled backward toward the wall 302.

The components of the bracket 300 may be made from 0.063 inches thicksteel.

Regarding FIGS. 4A-4C, there is illustrated a two-piece curtain rodbracket 400 that is installed on to a wall 402, such as drywall coveredwall, without the use of any tools. The bracket 400 includes a prongmount 404 that is used to form a hole 406 through the wall 402, andthen, the prong mount 404 is inserted part way through the hole 406 toengage a backside 408 of the wall 402. The bracket 400 includes a rodsupport arm 410. The prong mount 404 attaches to the rod support arm410. The rod support arm 410 engages a frontside 412 of the wall 402 anda bottom side 414 of the prong mount 404 to support the rod support arm410. The rod support arm 410 includes a cradle 416 to hold a curtainrod.

The prong mount 404 has a generally U-shaped portion with two prongs418. Each prong 418 includes a pointed tip 420. Each pointed tip 420includes an apex 422 and two lateral edges 424 on opposite sides of theapex 422 that angle downwardly from the apex 422. Each pointed tip 420also includes a backside 426 that angles downwardly from the apex 422.The pointed tips 420 of the prongs 418 are used to puncture the wall 402to form the hole 406 without the use of tools. When the bracket 400 isinstalled, the pointed tips 420 may contact the backside 408 of the wall402 and limit the bracket 400 from pivoting in the hole 406. The widthof the prong mount 404 may also be greater than the height of the hole406, which also limits the bracket 400 from pivoting in the hole 406.

Each prong 418 includes a straight section 428 and a curved section 430.The straight section 428 engages the backside 408 of the wall 402 whenthe bracket 400 is installed on the wall 402. The curved section 430 mayengage the top of the hole 406 near/at the backside 408 of the wall 402.The curved section 430 extends from a base plate 432. The base plate 432defines a hole 434 used to connect the prong mount 404 to the anglebracket the rod support arm 410.

The rod support arm 410 includes a first leg 436 and a second leg 438.The legs 436, 438 meet at elbow 440 at about a 90 degree angle. Thefirst leg 436 includes a back surface 442 that engages a frontside 412of the wall 402 to support the bracket 400 against pivoting in the hole406 and damaging the wall 402 at the hole 406. The elbow 440 and theprong mount 404 meet at a front, bottom portion 446 of the hole 406. Thesecond leg 438 extends under the base plate 432 of the prong mount 404to support the rod support arm 410. The second leg 438 includes athreaded hole 448 that aligns with the hole 434 in the base plate 432. Ascrew 452 extends through the holes 434, 448 to secure the prong mount404 and the rod support arm 410 together.

The legs 436, 438 of the rod support arm 410 include a top portion 454and side portion 456 projecting perpendicularly from the top portion454. The side portions 456 enhance the strength of the rod support arm410 so that it resists downward bending under increased loads held bythe cradle 416. The base plate 432 incudes a center portion 444 and sideportions 450 projecting perpendicularly away from center portion 444. Aportion of the second leg 438 fits into a channel 458 formed between thecenter portion 444 and side portions 450. The side portions 450 preventlateral movement of the base plate 432 of the prong mount 404 relativeto the rod support arm 410. The side portions 450 include angledrearward edges 460.

The first leg 436 of the rod support arm 410 also may include holes orslots 462, 464 so that the rod support arm 410 can be mounted withoutthe prong mount 404. The holes 462, 464 may be used with fasteners, suchas screws and/or nails, to attach the rod support arm 410 directly to awall. This may be the case for any embodiment having a first leg of arod support arm with vertically aligned holes.

The cradle 416 includes a U-shaped configuration. A back segment 466includes a threaded hole 468 that cooperates with a screw 470 thatengages a curtain rod to hold the curtain rod in the cradle 416. TheU-shaped configuration may be angled backward toward the wall 402. TheU-shaped configuration of the cradle 416 may also be angled upward orforward.

By way of example only, the maximum width the of the prong mount 404 maybe 1.004 inches, and the maximum width of the rod support arm 410 may be0.750 inches. The length of the rod support arm 410 to the center of thecradle 416 may be 2.430 inches. The components of the bracket 400 may bemade from 0.063 inches thick steel.

Regarding FIGS. 5A-5C, there is illustrated a two-piece curtain rodbracket 500 that is installed on to a wall 502, such as drywall coveredwall, without the use of any tools. The bracket 500 includes a prongmount 504 that is used to form a hole 506 through the wall 502, andthen, the prong mount 504 is inserted part way through the hole 506 toengage a backside 508 of the wall 502. The bracket 500 includes a rodsupport arm 510. The prong mount 504 attaches to the rod support arm510. The rod support arm 510 engages a frontside 512 of the wall 502 anda bottom side 514 of the prong mount 504 to support the rod support arm510. The rod support arm 510 includes a cradle 516 to hold a curtainrod.

The prong mount 504 is identical to the prong mount 404 discussed aboveand will not be described again in connection with the bracket 500. Therod support arm 510 includes a first leg 518 and a second leg 520. Thelegs 518, 520 meet at elbow 522 at about a 90-degree angle. A web 523extends between the legs 518, 520 at the elbow 522 to provide strengthto resist the legs 518, 520 from collapsing towards one another. Thefirst leg 518 includes a back surface 524 that engages a frontside 512of the wall 502 to support the bracket 500 against pivoting in the hole506 and damaging the wall 502 at the hole 506. The elbow 522 and theprong mount 504 meet at a front, bottom portion 526 of the hole 506. Thesecond leg 520 extends under a base plate 528 of the prong mount 504 tosupport the rod support arm 510. The second leg 520 includes a threadedhole 530 that aligns with a hole 532 in the base plate 528. A screw 534extends through the holes 530, 532 to secure the prong mount 504 and therod support arm 510 together.

The base plate 528 incudes a center portion 536 and side portions 538projecting perpendicularly away from center portion 536. A portion ofthe second leg 520 fits into a channel 540 formed between the centerportion 536 and side portions 538. The side portions 538 prevent lateralmovement of the base plate 528 of the prong mount 504 relative to therod support arm 510. The side portions 538 include angled rearward edges542.

The first leg 518 of the rod support arm 510 also may include holes orslots 544, 546 so that the rod support arm 510 can be mounted withoutthe prong mount 504. The holes 544, 546 may be used with fasteners, suchas screws and nails, to attach the rod support arm 510 directly to awall.

The cradle 516 may include a straight back 548, a straight bottom 550and a hooked front 552 with a V-shaped notch 554. The straight back 548may include a threaded hole 556 that receives a screw 558. The screw 558engages a rod and pushes the rod into a locking arrangement at thehooked front 552 so that the rod cannot unintentionally be removed fromthe cradle 516. More specifically, the V-shaped notch 554 enables thehooked front 552 to accommodate a wide range of rod sizes including, forexample, ⅜″ to 1″ outer diameter. For rods at the lower end of thisrange, the screw 558 might pass above the rod if the rod rests on thestraight bottom 550 of the cradle 516, which is not desired. It istherefore desired that the screw 558 be centered on the rod 560 to pushthe rod 560 into the V-shaped notch 554 regardless of the diameter ofthe rod 560. With the notch 554, the rod 560 can be placed in the notch554, and the screw 558 can engage the rod 560 to hold the rod 560 in thenotch 554. As shown in FIG. the rod 560 could be suspended above thestraight bottom 550 of the cradle 516. In some cases, a rod may be largeenough in diameter to rest on the straight bottom 550 of the cradle 516with the screw 558 holding the rod in the notch 554. Overall, theV-shaped notch 554 increases the range of rod diameters that can be usedwith the cradle 516.

The bracket 500 may be made from 0.63 inches thick steel.

Regarding FIGS. 6A-6C, there is illustrated a two-piece curtain rodbracket 600 that is installed on to a wall 602, such as drywall coveredwall, without the use of any tools. The bracket 600 is identical tobracket 500 except that it includes a second cradle 662 that enables therod bracket 600 to support two rods. The elements of the bracket commonwith the bracket 500 will not be described again but will be referred toon FIGS. 6A-6C with the same numbers as for the bracket 500 except thatthe numbers will be in the 600 series.

The rod support arm 610 includes a straight portion 664 extending to thesecond cradle 662. Like the first cradle 616, the second cradle mayinclude a straight back 666, a straight bottom 668 and a hooked front670 with a V-shaped notch 672. The straight back 668 may include athreaded hole 674 that receives a screw 676. The screw 676 engages a rodand pushes the rod into a locking arrangement at the hooked front 670 sothat the rod cannot unintentionally release upward from the secondcradle 662. More specifically, the V-shaped notch 672 enables the hookedfront 670 to accommodate a wide range of rod sizes including, forexample, ⅜″ to 1″ outer diameter. For rods at the lower end of thisrange, the screw 676 might pass above the rod if the rod rests on thestraight bottom 668 of the second cradle 662, which is not desired. Itis therefore desired that the screw 676 be centered on the rod 678 topush the rod 678 into the V-shaped notch 672 regardless of the diameterof the rod 678. With the notch 672, the rod 678 can be placed in thenotch 672, and the screw 676 can engage the rod 678 to hold the rod 678in the notch 672. In this case, the rod 678 could be suspended above thestraight bottom 668 of the second cradle 662. In some cases, a rod maybe large enough in diameter to rest on the straight bottom 668 of thesecond cradle 662 with the screw 676 holding the rod in the notch 672.Overall, the V-shaped notch 672 increases the range of rod diametersthat can be used with the second cradle 662.

The bracket 600 may be made from 0.63 inches thick steel.

Regarding FIGS. 7A-7F, there is illustrated a two-piece curtain rodbracket 700 that is installed to a wall 702, such as drywall coveredwall, without the use of any tools. The bracket 700 includes a prongmount 704 that is used to form a hole 706 through the wall 702, andthen, the prong mount 704 is inserted part way through the hole 706 toengage a backside 708 of the wall 702. The bracket 700 includes a rodsupport arm 710. The prong mount 704 attaches to the rod support arm710. The rod support arm 710 engages a frontside 712 of the wall 702 anda bottom side 714 of the prong mount 704 to support the support arm 710.The support arm 712 includes a cradle 716 to hold a curtain rod.

The prong mount 704 has a generally U-shaped portion with two prongs718. Each prong 718 includes a pointed tip 720. Each pointed tip 720includes an apex 722 and two lateral edges 724 on opposite sides of theapex 722 that angle downwardly from the apex 722. Each pointed tip 720also includes a backside 726 that angles downwardly from to the apex722. The pointed tips 720 of the prongs 718 are used to puncture thewall 702 to form the hole 706 without the use of tools. When the bracket700 is installed, the pointed tips 720 may contact the backside 708 ofthe wall 702 and limit the bracket 700 from pivoting in the hole 706.The width of the prong mount 704 may also be greater than the height ofthe hole 706, which also limits the bracket 700 from pivoting in thehole 706.

Each prong 718 includes a straight section 728 and a curved section 730.The straight section 728 engages the backside 708 of the wall 702 whenthe bracket 700 is installed on the wall 702. The curved section 730 mayengage the top of the hole 706 near/at the backside 708 of the wall 702.The curved section 730 extends from a base plate 732. The base plate 732defines a hole 734, and a terminal end 733 of the base plate includes atab 735, both used to connect the prong mount 704 to the rod support arm710.

The rod support arm 710 includes a first leg 736 and a second leg 738.The legs 736, 738 meet at elbow 740 at about a 90-degree angle. Thefirst leg 736 includes a back surface 742 that engages a frontside 712of the wall 702 to support the bracket 700 against pivoting in the hole706 and damaging the wall 702 at the hole 706. The elbow 740 and theprong mount 704 meet at a front, bottom portion 746 of the hole 706. Thesecond leg 738 extends under the base plate 732 of the prong mount 704to support the rod support arm 710. The second leg 738 includes athreaded hole 748 that aligns with the hole 734 in the base plate 732. Ascrew 752 extends through the holes 734, 748 to secure the prong mount704 and the rod support arm 710 together. The second leg 738 includes asecond hole 744 that receives the tab 735 of the prong mount 704 toprevent rotation of the prong mount 704 relative to the rod support arm710.

The first leg 736 of the rod support arm 710 also may include holes orslots 762, 764 so that the rod support arm 710 can be mounted withoutthe prong mount 704. The holes 762, 764 may be used with fasteners, suchas screws and/or nails, to attach the rod support arm 710 directly to awall.

The cradle 716 includes a U-shaped configuration. A back segment 766includes a threaded hole 768 that cooperates with a screw 770 thatengages a curtain rod to hold the curtain rod in the cradle 716. TheU-shaped configuration may be angled backward toward the wall 702, ormay alternatively be angled upward or forward.

By way of example only, the prong mount 704 may have a width of 0.652inches, a height of 0.700 inches and length of 1.626 inches. The curvedportion 730 of the prong mount 704 may have a radius of curvature of0.40 inches. The prongs 718 may have a length of 0.501 inches and awidth of 0.120 inches. The distance from the terminal end 733 to thecenter of the hole 734 may be 0.738 inches. The rod support arm 710 mayhave a height of 1.60 inches taken along the first leg 736, a length of2.251 inches measured from the first leg 736 to a center of the cradle716 and a width of 0.652 inches. The cradle 716 may have a radius ofcurvature of 0.323 inches.

The prong mount 704 and the rod support arm 710 may be made from 0.063inches thick steel.

With reference to FIGS. 8A-B, there is illustrated the installationsteps using the single piece bracket 10 as an example. First, thebracket 10 is oriented so that the straight portions 114 of the prongs134 of the prong portion 104 are perpendicular with the frontside 112 ofthe wall 102. The pointed tips 136 of the straight portions 112 arepushed straight into the wall 102. When the curved portion 116 of theprongs 134 proceeds into the wall 102, the bracket 100 will turn towardthe wall 102 as the prong portion 104 is continued to be pushed into thewall 102. Finally, when the leg portion 110 engages the frontside 112 ofthe wall 102, the straight portion 114 of the prongs 134 engage thebackside 108 of the wall 102. This is when the bracket 100 is fullyinstalled. This installation operation is the same for all the brackets(brackets 200, 300, 400, 500, 600, and 700) discussed above.

With reference to FIGS. 9A-9C, there is illustrated a mount portion 904that includes a single prong 908 with a single tip 910. The mountportion 904 includes a mount base 912 defining a hole 914 for attachingto one of the above-described rod support arms. The tip 910 includes apoint 916 and two angled sides 918. The prong 908 includes a curvedsegment 920 and a straight section 922. The single tip prong may be usedwith any of the above-described embodiments. The single tip is installedthe same as that described above.

Regarding FIGS. 10A-10C, there is illustrated an alternative prong mount1004. The prong mount 1004 has a generally U-shaped portion with twoprongs 1018. Each prong 1018 includes a pointed tip 1020. Each pointedtip 1020 includes an apex 1022 and two lateral edges 1024A and 1024B onopposite sides of the apex 1024 that extend downwardly from the apex322. The lateral edge 1024A is an extension of an outer edge 1019 of theprong 1018 and the lateral edge 1024B angles towards to the lateral edge1024A. The lateral edges 1024A, 1024B are not symmetrical in that theyform an asymmetrical pointed tip 1020.

When the bracket prong mount 1004 is used to install a bracket, thepointed tips 1020 may contact the backside of a wall and limit thebracket from pivoting in the hole of the wall. The width of the prongmount 1004 may also be greater than the height of the hole in the wall,which also limits the bracket from pivoting in the hole in the wall. Theprongs 1018 may be used to penetrate the wall to form the hole in thewall without the use of tools.

Each prong 1018 includes a straight section 1028 and a curved section1030. The straight section 1028 engages the backside of the wall whenthe bracket is installed on the wall. The curved section 1030 may engagethe top of the hole in the wall near/at the backside of the wall. Thecurved section 1030 extends from a base plate 1032. The base plate 1032defines a hole 1034 used to connect the prong mount 1004 to a bracketand/or the rod support arm.

The prong mount 1004 is like the prong mount 304 described above exceptfor the asymmetrical pointed tip 1020. Further, the asymmetrical pointedtip 1020 may be used with any of the prong mounts and brackets describedabove.

The prong portion and mounts described above may be made using differentprocess, most common are molding and stamping.

The matter set forth in the foregoing description and accompanyingdrawings is offered by way of illustration only and not as a limitation.While embodiments have been shown and described, it will be apparent tothose skilled in the art that modifications may be made withoutdeparting from the broader aspects of the technological contribution.The actual scope of the protection sought is intended to be defined inthe following claims.

1-20. (canceled)
 21. A self-tapping curtain rod bracket comprising: amount having a mount portion and at least one prong extending from themount portion, the at least one prong shaped and sized to penetrate awall to extend through the wall and engage a backside of the wall; acradle to hold a curtain rod; and an arm removably connectable to themount portion of the mount to extend from the mount to support thecradle.
 22. The self-tapping curtain rod bracket of claim 21 furthercomprising a wall support extending from the arm.
 23. The self-tappingcurtain rod bracket of claim 22 wherein the wall support and the arm area single piece.
 24. The self-tapping curtain rod bracket of claim 22further comprising a support web extending between the wall support andthe arm.
 25. The self-tapping curtain rod bracket of claim 21 whereinthe mount portion defines a channel to receive at least a portion of thearm to inhibit relative lateral movement between the arm and the mount.26. The self-tapping curtain rod bracket of claim 25 wherein the mountportion includes a base portion and side portions projecting from thebase portion to define the channel.
 27. The self-tapping curtain rodbracket of claim 21 wherein the mount portion defines a first hole andthe arm defines a second hole and a fastener sized to extend into thefirst hole and the second hole.
 28. The self-tapping curtain rod bracketof claim 21 wherein the arm includes a main portion and a side portionprojecting from the main portion.
 29. The self-tapping curtain rodbracket of claim 21 wherein the at least one prong includes a firstprong and a second prong, the first prong spaced from the second prong.30. The self-tapping curtain rod bracket of claim 21 wherein the atleast one prong being angled to the mount portion such that wheninstalled on a wall the at least one prong inhibits the mount portionfrom pivoting relative to the wall.
 31. The self-tapping curtain rodbracket of claim 21 wherein the cradle includes a threaded hole and ascrew threadably engaging the threaded hole to secure a curtain rod atthe cradle.
 32. The self-tapping curtain rod bracket of claim 31 whereinthe cradle includes a notch that cooperates with the screw to secure acurtain rod at the cradle.
 33. The self-tapping curtain rod bracket ofclaim 21 further comprising a wall support extending away from the armand defining attachment holes for securing the wall support to a wall.34. A self-tapping bracket comprising: a mount having a mount portionand at least one prong extending from the mount portion, the at leastone prong shaped and sized to penetrate a wall to extend through thewall and engage a backside of the wall and having a terminal endportion; and a support arm removably connectable to the mount portion ofthe mount and including a wall support extending opposite the terminalend portion and a second support arm extending from the wall supporttransversely to the wall support.
 35. The self-tapping bracket of claim34 wherein the support arm includes a support web extending between thewall support and the second support arm.
 36. The self-tapping bracket ofclaim 34 wherein the mount portion defines a channel to receive at leasta portion of the support arm to inhibit relative lateral movementbetween the support arm and the mount.
 37. The self-tapping bracket ofclaim 36 wherein the mount portion includes a base portion and sideportions projecting from the base portion to define the channel.
 38. Theself-tapping bracket of claim 34 wherein the mount portion defines afirst hole and the support arm defines a second hole, the mount portionremovably connected to the support arm by a fastener extending into thefirst hole and the second hole.
 39. The self-tapping bracket of claim 34wherein the support arm includes a main portion and a side portionprojecting from the main portion.
 40. The self-tapping bracket of claim39 wherein the side portion extends along at least a portion of a lengthof the second support arm and the wall support.
 41. The self-tappingbracket of claim 34 wherein the at least one prong includes a firstprong and a second prong, the first prong being spaced from the secondprong.
 42. The self-tapping bracket of claim 41 wherein a length of thefirst prong and the second prong inhibit the mount portion from pivotingrelative to a wall when installed.
 43. The self-tapping bracket of claim34 wherein the wall support defines attachment openings for securing thesupport arm to a wall.
 44. The self-tapping bracket of claim 34 furthercomprising a cradle supported by the support arm.